Question:
A piece of wire of resistance $R$ is cut into n equal parts. These parts are then connected in parallel. If the equivalent resistance of the parallel combination is $R'$ , then $\big(\frac{R}{R'}\big) $ is
A piece of wire of resistance $R$ is cut into n equal parts. These parts are then connected in parallel. If the equivalent resistance of the parallel combination is $R'$ , then $\big(\frac{R}{R'}\big) $ is
Updated On: Jun 20, 2022
- $\frac{1}{1}$
- $\frac{n}{1}$
- $\frac{n^2}{1}$
- $\frac{1}{n}$
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The Correct Option is C
Solution and Explanation
Resistance, $R=\frac{\rho l}{A}$
If $r$ be the resistance of one cut part, then
$r=\frac{\rho(l / n)}{A}=\frac{R}{n}$
The resistance $R^{'}$ of the parallel combination is given by
$\frac{1}{R^{'}}=\frac{1}{r}+\frac{1}{r}+\ldots=\frac{n}{r}$
So, $R^{'}=\frac{r}{n}=\frac{R / n}{n}=\frac{R}{n^{2}}$
Hence, $\frac{R}{R^{'}}=\frac{n^{2}}{1}$
If $r$ be the resistance of one cut part, then
$r=\frac{\rho(l / n)}{A}=\frac{R}{n}$
The resistance $R^{'}$ of the parallel combination is given by
$\frac{1}{R^{'}}=\frac{1}{r}+\frac{1}{r}+\ldots=\frac{n}{r}$
So, $R^{'}=\frac{r}{n}=\frac{R / n}{n}=\frac{R}{n^{2}}$
Hence, $\frac{R}{R^{'}}=\frac{n^{2}}{1}$
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Concepts Used:
Electromagnetic Induction
Electromagnetic Induction is a current produced by the voltage production due to a changing magnetic field. This happens in one of the two conditions:-
- When we place the conductor in a changing magnetic field.
- When the conductor constantly moves in a stationary field.
Formula:
The electromagnetic induction is mathematically represented as:-
e=N × d∅.dt
Where
- e = induced voltage
- N = number of turns in the coil
- Φ = Magnetic flux (This is the amount of magnetic field present on the surface)
- t = time
Applications of Electromagnetic Induction
- Electromagnetic induction in AC generator
- Electrical Transformers
- Magnetic Flow Meter